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en-usEngadget RSS FeedCopyright 2015 AOL Inc. The contents of this feed are available for non-commercial use only.http://www.engadget.com/2015/01/31/recommended-reading-1-31-15/%3Futm_medium%3Dfeed%26utm_source%3DFeed_Classic%26utm_campaign%3DEngadget%26ncid%3Drss_semi
http://www.engadget.com/2015/01/31/recommended-reading-1-31-15/http://www.engadget.com/2015/01/31/recommended-reading-1-31-15/%3Futm_source%3DFeed_Classic%26utm_medium%3Dfeed%26utm_campaign%3DEngadget%23commentsRecommended Reading highlights the best long-form writing on technology and more in print and on the web. Some weeks, you'll also find short reviews of books that we think are worth your time. We hope you enjoy the read.

With the revival of VR, it's important that we take a look back to the last big push for virtual reality. Kill Screen recently dedicated an entire issue to the topic, including a piece that recalls what VR was like in the '90s, when it was all circle pods, massive headsets and plastic guns. Ah... the good ol' days.

Today, we mull over expectations for Apple's iPhone event, investigate the trade-offs of cordless virtual reality, learn about the benefits of having a dash cam, ogle at TiVo's 24TB DVR and more! Read on for Engadget's news highlights from the last 24 hours.

That Higgs boson that everyone was so eager to find last year? As it turns out, it could be the end of everything -- in the wrong circumstances, anyway. In his upcoming book Starmus, Stephen Hawking notes that the once-elusive particle could become less than perfectly stable at energy levels of 100 billion giga-electronvolts or higher. If it gets to that state, it could trigger a vacuum bubble that would expand at the speed of light, eventually collapsing all space and time; you wouldn't even know the disaster was coming if the event happened on Earth.

2013 was a bust! Or so we've been told. Whether you follow that line of thinking or reflect on the last 363 days in a more optimistic light, it's clear the year wasn't all big breakthroughs and great triumphs. This was the year of government surveillance revelations, fallen giants and lackluster product releases. But it was also the year Netflix took on the studios, patent reform became a real priority in DC and two new game consoles hit the scene. No, we won't be riding our hoverboards into the sunset at the close of 2013, but the stories that rocked the industry had a profound impact not only on technology, but also on society as a whole. So let's raise those half-empty glasses and make a toast as we recap the year that was: Here's to the glassholes!

Sure, it may have been one of the easier Nobel prizes to call in recent years -- at least partly -- but that doesn't make it any less notable. This morning, the Royal Swedish Academy of Sciences awarded the Nobel Prize in Physics to Peter Higgs and Francois Englert "for the theoretical discovery of a mechanism that contributes to our understanding of the origin of mass of subatomic particles," or what's come to be known as the Higgs boson.

While the prize doesn't extend to the researchers at CERN who confirmed the existence of the Higgs particle last year, the Nobel committee did cite their work in the announcement, as did Peter Higgs himself, who said in a prepared statement that he "would also like to congratulate all those who have contributed to the discovery of this new particle." Professor Higgs isn't offering any more than that statement today, though -- one of his Edinburgh University colleagues tells the BBC that "he's gone on holiday without a phone."

Previously, free rein to explore the labyrinthine laboratory that is CERN has been granted only to the lucky, or those with four degrees and an aptitude for finding theoretical particles. That changes today, however, as anyone can now explore the home of the Large Hadron Collider in Geneva, Switzerland through Google Street View. All the imagery was captured back in 2011, but it's finally been stitched together, allowing you to wander freely around the site of the famous particle accelerator and learn a little about its experiments. Hit up Google Views to begin your personal guided tour, and let us know if you spot this Higgs fellow everyone's so keen on finding.

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Thu, 26 Sep 2013 08:32:00 -040021|20730583http://www.engadget.com/2013/08/12/science-behind-particle-accelerators/%3Futm_medium%3Dfeed%26utm_source%3DFeed_Classic%26utm_campaign%3DEngadget%26ncid%3Drss_semi
http://www.engadget.com/2013/08/12/science-behind-particle-accelerators/http://www.engadget.com/2013/08/12/science-behind-particle-accelerators/%3Futm_source%3DFeed_Classic%26utm_medium%3Dfeed%26utm_campaign%3DEngadget%23commentsPrimed goes in-depth on the technobabble you hear on Engadget every day -- we dig deep into each topic's history and how it benefits our lives. You can follow the series here. Looking to suggest a piece of technology for us to break down? Drop us a line at primed *at* engadget *dawt* com.

Long before the Large Hadron Collider (LHC) could smash its first atoms, researchers manning the Tevatron collider at Fermilab, in a quiet suburb 40 miles west of Chicago, raced to find evidence that the Higgs boson exists. After roughly three decades of service, the Tevatron shut down for good in late 2011, dealing the city of Batavia's largest employer a significant blow. Less than 18 months later, the LHC (the Tevatron's technological successor) also went offline - albeit temporarily. Only four years after recording its first proton collisions, the team at CERN is already scrambling to upgrade the staggering LHC, which lies under parts of no less than five cities in both France and Switzerland. With the world's largest particle colliders smashing a whole lot of nothing together for the next two years at least, the field of high-energy physics research is starting to look resource-starved. Of course, many might ask why exactly we need giant atom smashers like this, or even how they work. It turns out that first part is quite a bit easier to answer than the second.

During the last several decades, particle accelerators have revealed the existence of elementary particles such as quarks, led to the discovery of antimatter and generally helped us unlock the mysteries of the universe. And once they were done splitting atoms and probing the darkest corners of theoretical physics, accelerators often led to breakthroughs in medical imaging and cancer research. So, as massive colliders seem ready to land on the endangered species list, it seems as good a time as any to explain what a particle collider is, how it works and what we as a society have to gain from the research.

"Why, sometimes I've believed as many as six impossible things before breakfast."
― Lewis Carroll, Alice in Wonderland

I've been to see ALICE -- though there was no looking glass to jump through, just a retina scanner and one very long elevator ride down into the earth. I've toured a CMS that has nothing to do with online publishing. I've even gently laid my body on the most powerful particle accelerator in the world and raised the ire of surrounding engineers in the interest of a good shot. I did all of this at CERN, the international particle physics laboratory located near Geneva, Switzerland. But you probably know it best as the birthplace of the world wide web and home of the Large Hadron Collider. And, yes, it was all exactly like a walking fever dream. Gallery-192868 Gallery-192867 Gallery-192869 Gallery-192870

It's not everyday you get to tour CERN, the international particle physics research facility that spans the border of both France and Switzerland. It's even more rare to go down into the sprawling facility's tunnels to see an inactive and under repair Large Hadron Collider -- currently, the world's most powerful particle accelerator. But that's just what we did this past week, as we spent some quality time with CERN's physicists and visited the dormant LHC, as well as two of its detectors: ALICE and CMS (pictured above). There'll be much more to come from our trip to CERN, so stay tuned. But for now feast your eyes on the birthplace of the Higgs Boson discovery.

CERN's latest update to its elementary particle project states the new particle that it was able to pick up is behaving "more and more like a Higgs boson." The team isn't being particularly specific here, as its not certain just yet whether it's detected a 'standard model' particle or the lightest of several possible bosons predicted in other spin-off theories. Researchers are referencing the interactions of the particle (particularly its spin, or lack off) as the main reason why they reckon they're dealing with a genuine Higgs boson and work will now focus on exactly what kind of boson they've managed to snag.

As a prominent musician once noted: all that hype doesn't feel the same next year, boy. And that's sadly proving true for our old friend Higgs boson, who shot to fame last Summer but is now waking up to find only a handful of fans camped outside his collider. Part of the problem is simply that things have become procedural and academic -- CERN scientists met in Italy this week to share their latest findings, but the updates were mostly either inconclusive or suggestive of a rather mundane-seeming subatomic entity.

At the time of Higgs' discovery, observers were especially interested in the possibility that this mysterious particle didn't decay in exactly the way science had predicted. It seemed to break down into an excess of photons, such that it might potentially reveal something unexpected about dark matter and the structure of space-time. But as data continues to be gathered, it appears more likely that the extra photons may have been a statistical anomaly, leading one researcher to admit on Twitter that his ATLAS team is "not too excited" about it anymore. Nothing is confirmed at this point, however, and other scientists have since tweeted to caution against jumping to conclusions. At least we can say for sure that Higgs still exists. And if the poor thing can't hold the universe togetherand mess with the laws of physics at the same time, then so be it.

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Fri, 08 Mar 2013 10:01:00 -050021|20494452http://www.engadget.com/2012/08/04/alt-week-8-4-12-buckyballs-bosons-and-bodily-fluids/%3Futm_medium%3Dfeed%26utm_source%3DFeed_Classic%26utm_campaign%3DEngadget%26ncid%3Drss_semi
http://www.engadget.com/2012/08/04/alt-week-8-4-12-buckyballs-bosons-and-bodily-fluids/http://www.engadget.com/2012/08/04/alt-week-8-4-12-buckyballs-bosons-and-bodily-fluids/%3Futm_source%3DFeed_Classic%26utm_medium%3Dfeed%26utm_campaign%3DEngadget%23commentsAlt-week peels back the covers on some of the more curious sci-tech stories from the last seven days.

Remember when we told you last week that we live in a strange world? Well, we had no idea what we were talking about. Seriously, things are about to get a whole lot weirder. High school is certainly a head-scratcher, no matter how old you are, but the mathematics of social hierarchies can't hold a candle to the mysteries of the buckyball. And, if the strange behavior of the familiar carbon molecule isn't enough for you, we've got an entirely new molecule to contend with, while the once-elusive Higgs Boson is getting us closer to unlocking the secrets of the universe. It's all pretty heady stuff, which is why we're also gonna take a quick detour to the world of human waste. This is alt-week.

Physics' big announcement had more in common with a leaky product launch than the serious business of re-writing the science books. But slack asset management aside, it's official: a new boson has been observed with a standard deviation of 5 (confidence of 99.9). The highly anticipated announcement came this morning direct from CERN's press conference (via ICHEP in Melbourne,) and is the result of an intense, ongoing search for the elusive particle. The observation is of a boson particle with a mass of 125.3 ± 0.6 GeV, at a significance of 4.9 sigma. Joe Incandela -- giving the presentation -- said that this is "In agreement with the standard model at 95 confidence range." The boson is the heaviest ever found, and although this is still a preliminary result, it's by far the strongest case yet for the existence of the elusive Higgs.

The sought-after particle is essential for supporting the current understanding of sub-atomic world, and its bearing on nuclear, and electromagnetic interactions. The next stage will be to determine the exact characteristics of the new particle and whether it matches the expectations of the Higgs, or is it in fact something more "exotic." This part will take much more time, but for now, a (very) small, but important piece of the puzzle has been found.

Update: We're sure you've got many questions, and CERN apparently anticipated this. Check out the more coverage link for a helpful FAQ about everything Higgs.

The cat would appear to be out of the bag, but if you must find out about the status of the Higgs boson search ASAP, check the video stream (embedded after the break) as CERN scientists reveal whatever it is they've found. The webcast is scheduled to kick off at 2:55AM ET, as a prelude to this year's ICHEP particle physics conference in Melbourne. Whenever the announcement comes we'll be sure to let you know, check the links below for more information.

Update: So yeah, they've found a new particle "consistent with Higgs boson," check out all the details here.

We had a false alarm over the possible discovery of the theory-unifying Higgs boson last year, but a bit of poking and prodding in subsequent months may well have given us much more definitive evidence of the elusive particle. According to some rare rumors emerging from Nature, both CERN's ATLAS and CMS detectors have seen particle decay signals suggesting the existence of Higgs to within a 4.5 to 5 sigma level of proof -- in other words, very nearly concrete evidence. That's not quite the 5-plus needed to settle the matter, but it's to a much higher level of certainty than before. As if to add fuel to the fire, ScienceNews even located a briefly posted, CERN-made video (sadly, since pulled) saying bluntly that the CMS team had "observed a new particle."

Whether or not there's any substance is another matter. Nature hears that scientists are supposedly still working out what to say at an event on Wednesday, while CERN has made the slightly odd claim to ScienceNews that the yanked video is just one of several pre-recorded segments made to cover possible outcomes -- you know, in that "Dewey defeats Truman" sort of way. Unless the scientists have to go back to the drawing board, though, the focus from now on may be more on learning how Higgs behaves than its very existence. Any significant truth could see researchers proving the validity of the standard model of physics just as we're firing up our Independence Day barbecues.

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Tue, 03 Jul 2012 14:06:00 -040021|20270946http://www.engadget.com/2012/02/15/cern-crew-takes-to-google-for-live-hangout/%3Futm_medium%3Dfeed%26utm_source%3DFeed_Classic%26utm_campaign%3DEngadget%26ncid%3Drss_semi
http://www.engadget.com/2012/02/15/cern-crew-takes-to-google-for-live-hangout/http://www.engadget.com/2012/02/15/cern-crew-takes-to-google-for-live-hangout/%3Futm_source%3DFeed_Classic%26utm_medium%3Dfeed%26utm_campaign%3DEngadget%23commentsGot questions for CERN crew? We know we do. For instance, if a Higgs boson falls in the woods and no one is around to hear it, does it still create a miniature black hole that swallows the Earth and destroys us all? Well if you've got queries for the folks working the LHC, attempting to unlock the secrets of the universe then hit up the source link for a live Hangout at that most nerdy of social networks Google+. The conversation starts at 1 pm eastern time.

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Wed, 15 Feb 2012 12:43:00 -050021|20172549http://www.engadget.com/2012/02/14/large-hadron-collider-to-increase-beam-energy-higgs-boson-can-r/%3Futm_medium%3Dfeed%26utm_source%3DFeed_Classic%26utm_campaign%3DEngadget%26ncid%3Drss_semi
http://www.engadget.com/2012/02/14/large-hadron-collider-to-increase-beam-energy-higgs-boson-can-r/http://www.engadget.com/2012/02/14/large-hadron-collider-to-increase-beam-energy-higgs-boson-can-r/%3Futm_source%3DFeed_Classic%26utm_medium%3Dfeed%26utm_campaign%3DEngadget%23commentsWe've seen the Large Hadron Collider running at a record-breaking 7 TeV for short periods, but now CERN is turning it up a notch (to 4 TeV from 3.5) for the rest of the year. The decision comes after an annual performance workshop last week in Chamonix and a report from the CERN Machine Advisory Committee (CMAC). The increase may seem modest compared to the knee-trembling levels of 7 TeV, but it's all part of a broader optimization strategy. Scientists state the new approach should increase the data collected in 2012 to 15 inverse femtobarns -- a three-fold jump from 2011. Even more encouraging is a statement from CERN's Research Director, Sergio Bertolucci, who claims that we should finally know for sure about the existence of the Higgs boson -- either way -- before the LHC enters a temporary shut-down period at the end of the year. Beam yourself over the break for the full press release.

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Tue, 14 Feb 2012 20:18:00 -050021|20171558http://www.engadget.com/2011/12/13/cern-dont-believe-the-higgs-boson-hype/%3Futm_medium%3Dfeed%26utm_source%3DFeed_Classic%26utm_campaign%3DEngadget%26ncid%3Drss_semi
http://www.engadget.com/2011/12/13/cern-dont-believe-the-higgs-boson-hype/http://www.engadget.com/2011/12/13/cern-dont-believe-the-higgs-boson-hype/%3Futm_source%3DFeed_Classic%26utm_medium%3Dfeed%26utm_campaign%3DEngadget%23commentsCERN is pouring cold water on the rumor it's gonna announce the discovery of the Higgs at today's seminar in Zurich. For the uninitiated: the Higgs-Boson is the particle that is believed to give all things mass: it surrounds us, penetrates us and binds the galaxy together. The scuttlebutt is that the ATLAS sensor picked up a Higgs with a mass of 125GeV (gigaelectronvolts) and rated at three-point-five-sigma -- a one sigma barely warrants a mention, a five-sigma is a bona-fide scientific discovery. CERN hasn't confirmed or denied anything, claiming it's still got five inverse femtobarns worth of data (roughly 5 x 70 x 10^12 of individual collisions) to examine before it can be sure, so just chuck the one bottle of champagne into the refrigerator -- better to be safe, eh?

Update: Looks like we don't need to bust out the bubbly, after all. The conclusion from the two-hour presentation is that the ATLAS detector has been able to narrow down the region it believes the Higgs is in to 115.5GeV to 131GeV and that any discovery so-far only has a rating of two point three sigma. The CMS is similarly inconclusive, with results bobbing around the two sigma region. In short, whilst they know where they should look, they haven't been able to find one -- yet.

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Tue, 13 Dec 2011 09:47:00 -050021|20125725http://www.engadget.com/2011/04/22/large-hadron-collider-smashes-beam-intensity-record-inches-clos/%3Futm_medium%3Dfeed%26utm_source%3DFeed_Classic%26utm_campaign%3DEngadget%26ncid%3Drss_semi
http://www.engadget.com/2011/04/22/large-hadron-collider-smashes-beam-intensity-record-inches-clos/http://www.engadget.com/2011/04/22/large-hadron-collider-smashes-beam-intensity-record-inches-clos/%3Futm_source%3DFeed_Classic%26utm_medium%3Dfeed%26utm_campaign%3DEngadget%23comments
Already a record holder for mashing protons together at 7 TeV (trillion electron volts), the Large Hadron Collider can now add world's brightest beam to its list of accomplishments. Beam intensity is a way of measuring the number of collisions in its 17-mile-long track, and a higher intensity means more impacts -- which, in turn, means more data, increasing the likelihood that the elusive Higgs boson will rear its head (should such a thing exist). The LHC smashed the previous luminosity record set last year by the Tevatron collider. What's next for the CERN team, with two world records under its belt? Largest beard of bees.

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Fri, 22 Apr 2011 14:51:00 -040021|19921107http://www.engadget.com/2010/07/13/has-the-higgs-boson-been-discovered-by-lhc-rival-are-we-still-h/%3Futm_medium%3Dfeed%26utm_source%3DFeed_Classic%26utm_campaign%3DEngadget%26ncid%3Drss_semi
http://www.engadget.com/2010/07/13/has-the-higgs-boson-been-discovered-by-lhc-rival-are-we-still-h/http://www.engadget.com/2010/07/13/has-the-higgs-boson-been-discovered-by-lhc-rival-are-we-still-h/%3Futm_source%3DFeed_Classic%26utm_medium%3Dfeed%26utm_campaign%3DEngadget%23comments
The Large Hadron Collider isn't the only bad boy on the block looking for the so-called God particle -- technically known as the Higgs Boson. A lesser known facility, the Tevatron -- located at the Fermi National Accelerator Laboratory in Batavia, Illinois -- has also been furiously searching for the particle which would help to explain the origins of mass in the universe -- and it looks like they might have found it. A rumor has been swirling about recently that the found particle is a "three-sigma," meaning that it's got a 99.7 percent statistical likelihood of being correct -- but the lab itself has yet to confirm or deny. The Tevatron, which was completed 27 years ago, is the second largest accelerator in the world (after the LHC) and it's expected to be retired once the CERN facility is fully operational.

Update: Well, that was fun for the few hours that it lasted. New Scientist has published a piece confirming that Tevatron is in fact denying the rumor, and no Higgs Boson discovery has gone down.

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Tue, 13 Jul 2010 08:31:00 -040021|19551386http://www.engadget.com/2010/06/29/lhcsound-brings-the-noise-asks-how-low-higgs-boson-can-go/%3Futm_medium%3Dfeed%26utm_source%3DFeed_Classic%26utm_campaign%3DEngadget%26ncid%3Drss_semi
http://www.engadget.com/2010/06/29/lhcsound-brings-the-noise-asks-how-low-higgs-boson-can-go/http://www.engadget.com/2010/06/29/lhcsound-brings-the-noise-asks-how-low-higgs-boson-can-go/%3Futm_source%3DFeed_Classic%26utm_medium%3Dfeed%26utm_campaign%3DEngadget%23commentsGod particle. The Champagne bottle boson. Non-existon. Mysteron. The Higgs boson particle is certainly known by a lot of names, and now we can add another to the list: rock god. The UK's Science and Technology Facilities Council has created "LHCsound: the sound of science." It's a series of (confusingly organized) pages offering acoustic renditions of the Large Hadron Collider's greatest hits, like proton collision, detector sweeps, and, our favorite, simulated Higgs Boson delay, which you can hear after the break. The data created by the energy and frequency of particle decay is used to modify the sound of running water, resulting in a generally creepy effect. We think it'd be perfect for accompanying your next foggy exploration of Silent Hill, but perhaps the next episode of Half Life 2 would be more appropriate.

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Tue, 29 Jun 2010 11:11:00 -040021|19535034http://www.engadget.com/2010/03/30/large-hadron-collider-to-attempt-7-tev-proton-collisions-via-liv/%3Futm_medium%3Dfeed%26utm_source%3DFeed_Classic%26utm_campaign%3DEngadget%26ncid%3Drss_semi
http://www.engadget.com/2010/03/30/large-hadron-collider-to-attempt-7-tev-proton-collisions-via-liv/http://www.engadget.com/2010/03/30/large-hadron-collider-to-attempt-7-tev-proton-collisions-via-liv/%3Futm_source%3DFeed_Classic%26utm_medium%3Dfeed%26utm_campaign%3DEngadget%23comments
The Large Hadron Collider is about to turn useful, people. Having recently jacked up its particle acceleration power to create 3.5 TeV (trillion electron volts) collisions, the researchers are today pressing ahead with plans to go to a full 7 TeV, which -- you won't be surprised to hear -- has never been done before. Provided the requisite 3.5 TeV per beam is reached, sustained and properly channeled into creating useful collisions, CERN will finally have the data it needs to start its long-awaited physics program based off the findings provided by the LHC. Best of all? The latest world record attempt is being broadcast live over the web right now so why not hit up that link below to witness some history in the making?

Update: The momentous first protonic collisions at 7 TeV have just taken place, at just past 1PM CET. Now the time comes for researchers to parse all the incoming raw data, pore over it, analyze it, etc. We'll leave that to them, it's not like you can expect the God Particle to be discovered instantly. To fill the time, we invite you to come past the break for our blow-by-blow updating adventure from this morning plus video of the big moment.

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Tue, 30 Mar 2010 07:07:00 -040021|19419369http://www.engadget.com/2010/02/07/report-large-hadron-collider-producing-tons-of-awesome-collisio/%3Futm_medium%3Dfeed%26utm_source%3DFeed_Classic%26utm_campaign%3DEngadget%26ncid%3Drss_semi
http://www.engadget.com/2010/02/07/report-large-hadron-collider-producing-tons-of-awesome-collisio/http://www.engadget.com/2010/02/07/report-large-hadron-collider-producing-tons-of-awesome-collisio/%3Futm_source%3DFeed_Classic%26utm_medium%3Dfeed%26utm_campaign%3DEngadget%23comments
Hey, now, this is some great news, right? The trouble-plagued Large Hadron Collider looks to be doing a bang up job in some of its primary tasks. After breaking the energy record previously held by the Tevatron particle accelerator back at the end of November, 2009, reports are now coming in that the LHC is, in fact, producing some extremely high energy collisions. A research team led by MIT, CERN and the KFKI Research Institute for Particle and Nuclear Physics in Budapest, Hungary have released a report detailing findings that the collisions are producing an "unexpectedly" high number of particles called mesons, subatomic particles composed of one quark and one antiquark. The research is considered one of the first steps in the search for rarer particles, and the elusive, theoretical Higgs Boson. The paper, published in the Journal of High Energy Physics has led scientists to fine-tuning their predictive models for how many mesons will be found in even higher energy collisions. Hit the read link for the full, high energy news.

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Sun, 07 Feb 2010 12:30:00 -050021|19347606http://www.engadget.com/2010/02/03/large-hadron-collider-schedules-holiday-for-2012-full-7-tev-pow/%3Futm_medium%3Dfeed%26utm_source%3DFeed_Classic%26utm_campaign%3DEngadget%26ncid%3Drss_semi
http://www.engadget.com/2010/02/03/large-hadron-collider-schedules-holiday-for-2012-full-7-tev-pow/http://www.engadget.com/2010/02/03/large-hadron-collider-schedules-holiday-for-2012-full-7-tev-pow/%3Futm_source%3DFeed_Classic%26utm_medium%3Dfeed%26utm_campaign%3DEngadget%23commentsIt's good to know that even huge inanimate objects appreciate the need for a work-life balance. After a nice winter hiatus, Switzerland's Large Hadron Collider is coming back online soon, set to resume smashing protonic beams at one another with the force of 3.5 trillion electron-volts (TeV) per beam, or 7 TeV in total. We have to swallow hard when we hear such force described as "low-energy," but that's what the LHC designers consider it, and moreover we're learning they'll skip past the middle and go for the full 14 TeV potential smashes after a retooling break during 2012. Although this may delay the discovery of the Higgs boson particle, other physics research shouldn't be stalled in the meantime -- scientists claim they'll be able to extract data from the low-energy collisions that could lend us more information on aspects of string theory, extra dimensions, and supersymmetry. Doesn't all this sound like nerds trying to avoid getting real jobs?

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Wed, 03 Feb 2010 08:20:00 -050021|19342947http://www.engadget.com/2009/11/24/large-hadron-collider-reboots-makes-first-protonic-bang/%3Futm_medium%3Dfeed%26utm_source%3DFeed_Classic%26utm_campaign%3DEngadget%26ncid%3Drss_semi
http://www.engadget.com/2009/11/24/large-hadron-collider-reboots-makes-first-protonic-bang/http://www.engadget.com/2009/11/24/large-hadron-collider-reboots-makes-first-protonic-bang/%3Futm_source%3DFeed_Classic%26utm_medium%3Dfeed%26utm_campaign%3DEngadget%23comments
Yes, ladies and gentlemen, that most epic triumph of human engineering and physics research has finally taken place, and strangely enough our planet's still in one piece too. The search for the Higgs boson particle resumed yesterday, somewhere under the Franco-Swiss border, with the CERN research team successfully executing what the LHC was built to do -- accelerating proton beams to nearly the speed of light, then filming the wreckage as they crash into each other. Having encountered a number of bumps in the road, the researchers have had to significantly scale down the energy at which their early collisions will take place, with the very first ones said to have happened at 900 billion electron volts. Still, plans are afoot for an imminent shift up to 1.2 trillion electron volts (TeV), which would be the highest energy level any particle accelerator has achieved yet, before a ramp up to 7 TeV over the coming year if all goes well.